M H Devoret
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Explore the profile of M H Devoret including associated specialties, affiliations and a list of published articles.
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53
Citations
1046
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Recent Articles
1.
Sivak V, Eickbusch A, Royer B, Singh S, Tsioutsios I, Ganjam S, et al.
Nature
. 2023 Mar;
616(7955):50-55.
PMID: 36949196
The ambition of harnessing the quantum for computation is at odds with the fundamental phenomenon of decoherence. The purpose of quantum error correction (QEC) is to counteract the natural tendency...
2.
Fatemi V, Kurilovich P, Hays M, Bouman D, Connolly T, Diamond S, et al.
Phys Rev Lett
. 2022 Dec;
129(22):227701.
PMID: 36493424
Electrostatic charging affects the many-body spectrum of Andreev states, yet its influence on their microwave properties has not been elucidated. We developed a circuit quantum electrodynamics probe that, in addition...
3.
Hays M, Fatemi V, Bouman D, Cerrillo J, Diamond S, Serniak K, et al.
Science
. 2021 Aug;
373(6553):430-433.
PMID: 34437115
Two promising architectures for solid-state quantum information processing are based on electron spins electrostatically confined in semiconductor quantum dots and the collective electrodynamic modes of superconducting circuits. Superconducting electrodynamic qubits...
4.
Wang Z, Xu M, Han X, Fu W, Puri S, Girvin S, et al.
Phys Rev Lett
. 2021 May;
126(18):180501.
PMID: 34018799
The interaction of photons and coherent quantum systems can be employed to detect electromagnetic radiation with remarkable sensitivity. We introduce a quantum radiometer based on the photon-induced dephasing process of...
5.
Campagne-Ibarcq P, Eickbusch A, Touzard S, Zalys-Geller E, Frattini N, Sivak V, et al.
Nature
. 2020 Aug;
584(7821):368-372.
PMID: 32814889
The accuracy of logical operations on quantum bits (qubits) must be improved for quantum computers to outperform classical ones in useful tasks. One method to achieve this is quantum error...
6.
Grimm A, Frattini N, Puri S, Mundhada S, Touzard S, Mirrahimi M, et al.
Nature
. 2020 Aug;
584(7820):205-209.
PMID: 32788737
Quantum superpositions of macroscopically distinct classical states-so-called Schrödinger cat states-are a resource for quantum metrology, quantum communication and quantum computation. In particular, the superpositions of two opposite-phase coherent states in...
7.
Houzet M, Serniak K, Catelani G, Devoret M, Glazman L
Phys Rev Lett
. 2019 Oct;
123(10):107704.
PMID: 31573281
We evaluate the rates of energy and phase relaxation of a superconducting qubit caused by stray photons with energy exceeding the threshold for breaking a Cooper pair. All channels of...
8.
Minev Z, Mundhada S, Shankar S, Reinhold P, Gutierrez-Jauregui R, Schoelkopf R, et al.
Nature
. 2019 Jun;
570(7760):200-204.
PMID: 31160725
In quantum physics, measurements can fundamentally yield discrete and random results. Emblematic of this feature is Bohr's 1913 proposal of quantum jumps between two discrete energy levels of an atom....
9.
Touzard S, Kou A, Frattini N, Sivak V, Puri S, Grimm A, et al.
Phys Rev Lett
. 2019 Apr;
122(8):080502.
PMID: 30932609
We have realized a new interaction between superconducting qubits and a readout cavity that results in the displacement of a coherent state in the cavity, conditioned on the state of...
10.
Serniak K, Hays M, De Lange G, Diamond S, Shankar S, Burkhart L, et al.
Phys Rev Lett
. 2018 Oct;
121(15):157701.
PMID: 30362798
Nonequilibrium quasiparticle excitations degrade the performance of a variety of superconducting circuits. Understanding the energy distribution of these quasiparticles will yield insight into their generation mechanisms, the limitations they impose...